Phylogenetic tree Unit 8 Lesson 6

Tree Structure & Terms

Tree Types & Comparison

Molecular Evidence

Visuals & Variations

The "HTU" & "OTU" Lab

100

This is the study of evolutionary relationships among species based on the idea that all life has a common ancestor.

Phylogeny

100

This famous scientist made the first sketch of an evolutionary "tree" in 1837

Charles Darwin

100

Scientists use this universal molecule to compare base sequences and determine how closely related different organisms are.

DNA

100

On a phylogenetic tree, these two taxa (A and B) are considered the most closely related because they share a recent common ancestor at a specific node.

Sister Groups

100

These nodes represent the actual units under comparison at the end of a lineage.

Terminal Nodes

200

This term refers to any group of organisms (like a species or family) placed at the tips of a tree.

Taxon

200

These are pairs of taxa that are more closely related to each other than to any other group because they share a recent common ancestor.

Sister Groups

200

This hypothetical organism lived about 1.5 billion years ago and is the ancestor of all life on Earth.

LUCA

200

$100: While some diagrams go from left to right, a cladogram can also be drawn in this direction.

Vertical

200

In technical terms, Terminal Nodes are known by this three-letter abbreviation.

OTU

300

These nodes, also called OTUs, represent the specific units or species being compared at the very ends of the branches.

Terminal Nodes

300

These are unrooted trees that show how related taxa are but do not provide an evolutionary path or time.

Phenograms

300

These are the building blocks of proteins (there are 22 types) that scientists compare to find evolutionary links.

Amino Acids

300

This is another name for the "tips" of the tree branches where the names of the organisms are written.

Leaves

300

These nodes represent hypothetical ancestral units where branches meet

Internal Nodes

400

These represent ancestral units or "speciation events" where a single lineage splits into two.

Internal Nodes

400

Also known as phylograms, these cladograms have varying branch lengths to show evolutionary change.

Additive Trees

400

These genes control the placement and development of body parts; mutations in them can cause legs to grow where antennae should be!

Hox Genes

400

This specific type of tree is also known as a metric tree or a phylogram

Additive Tree

400

Internal Nodes are technically known by this three-letter abbreviation.

HTU

500

This is a group of organisms that includes a single common ancestor and all of its descendants.

Clade

500

This is a group of organisms used as a reference point that is less related to the main group being studied.

Outgroup

500

This specific 183-nucleotide DNA sequence is found in all Hox genes and provides strong evidence for common ancestry.

Homeobox

500

This general term refers to tree-like diagrams, specifically used when describing Ultrametric trees.

Dendrogram

500

This is the specific number of amino acids found in the "homeodomain" protein sequence of Hox genes.